Effects of Cryotherapy on Ankle Movements and Gait of Spastic Hemiparetic Subjects

Change from baseline in spasticity level

Spasticity level of plantarflexors and dorsiflexors will be classified according to Modified Ashworth Scale.

Time frame: baseline, 20 minutes (immediately post-application of cryotherapy or placebo)

Change from baseline in angular kinematic variables during gait

The post-evaluation will be performed immediately after the end of the intervention (cryotherapy or placebo, applied for 20 minutes). A motion analysis system (Qualysis AB, Gothenburg, Sweden) will be used for kinematic data collection during gait. Passive reflective markers will be placed on the anatomical landmarks (anatomical markers) according to the International Society of Biomechanics. In addition, clusters will be placed on T4, L2 and bilaterally on the lateral portion of the thighs and legs. Following markers and clusters placement, a static posture (duration: 10 seconds) will be performed with the subjects in orthostatic position. Then dynamic data will be collected during walking in the self-selected comfortable speed (10 trials). The displacement (°) of the joints of the trunk, hip, knee and ankle during heel strike, stance phase and balance phase will be calculated during gait.

Time frame: baseline, 20 minutes (immediately post-application of cryotherapy or placebo)

Change from baseline in linear kinematic variables during gait

The post-evaluation will be performed immediately after the end of the intervention (cryotherapy or placebo, applied for 20 minutes). A motion analysis system (Qualysis AB, Gothenburg, Sweden) will be used for kinematic data collection during gait. Passive reflective markers will be placed on the anatomical landmarks (anatomical markers) according to the International Society of Biomechanics. In addition, clusters will be placed on T4, L2 and bilaterally on the lateral portion of the thighs and legs. Following markers and clusters placement, a static posture (duration: 10 seconds) will be performed with the subjects in orthostatic position. Then dynamic data will be collected during walking in the self-selected comfortable speed (10 trials) and linear kinematic variables during gait will be analyzed.

Time frame: baseline, 20 minutes (immediately post-application of cryotherapy or placebo)

Change from baseline in joint sense position (proprioception) during plantarflexion and dorsiflexion

The post-evaluation will be performed immediately after the end of the intervention (cryotherapy or placebo, applied for 20 minutes). The joint position sense (proprioception) test will be performed on an isokinetic dynamometer. The participants will be seated and blindfolded. Initially, the dynamometer will move the foot toward references angles (for dorsiflexion or plantarflexion). Then, subjects will be allowed to sense the reference angle for 10 seconds before the ankle is returned passively to the start position. Subsequently, the foot will be moved passively by the dynamometer toward the reference position (for dorsiflexion or plantarflexion), and subjects will press a button in their hand that will stop the machine when they feel the position has been reached. The absolute error (in degrees) will be calculated as the difference between the indicated and reference positions.

Time frame: baseline, 20 minutes (immediately post-application of cryotherapy or placebo)

Change from baseline in passive resistance of plantarflexors and dorsiflexors

The post-evaluation will be performed immediately after the end of the intervention (cryotherapy or placebo, applied for 20 minutes). The assessment of passive resistance for plantarflexion and dorsiflexion muscles will be performed on an isokinetic dynamometer. The equipment will passively move the foot in a series of 6 repetitions in the movements of dorsiflexion and plantar flexion. Both responses to slow and fast passive stretching will be evaluated. Passive torque peak (N.m) of plantarflexors and dorsiflexors of the ankle will be recorded.

Time frame: baseline, 20 minutes (immediately post-application of cryotherapy or placebo)

Change from baseline in torque during isometric contractions

The post-evaluation will be performed immediately after the end of the intervention (cryotherapy or placebo, applied for 20 minutes). The isometric active torques (N.m) generated during plantarflexion and dorsiflexion contractions will be assessed using an isokinetic dynamometer.

Time frame: baseline, 20 minutes (immediately post-application of cryotherapy or placebo)

Change from baseline in torque during concentric contractions

The post-evaluation will be performed immediately after the end of the intervention (cryotherapy or placebo, applied for 20 minutes). The active torques generated (N.m) during plantarflexion and dorsiflexion movements will be assessed using an isokinetic dynamometer.

Time frame: baseline, 20 minutes (immediately post-application of cryotherapy or placebo)

Change from baseline in torque during eccentric contractions

The post-evaluation will be performed immediately after the end of the intervention (cryotherapy or placebo, applied for 20 minutes). The active torques generated (N.m) during plantarflexion and dorsiflexion movements will be assessed using an isokinetic dynamometer.

Time frame: baseline, 20 minutes (immediately post-application of cryotherapy or placebo)

Change from baseline in electromyography assessment

The post-evaluation will be performed immediately after the end of the intervention (cryotherapy or placebo, applied for 20 minutes). Bilateral activation of soleus, gastrocnemius, tibialis anterior and peroneus will be assessed by electromyography concomitantly with isokinetic dynamometer and gait assessments.

Time frame: baseline, 20 minutes (immediately post-application of cryotherapy or placebo)